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    作者:   來源:材料與機械工程學院  時間:2015-04-02   浏覽次數:

    材料與機械工程學院本科教學
    本科專業

    1.機械工程及自動化

           機械工程及自動化專業是涵蓋機械、電子、計算機、信息等多學科交叉的綜合性應用學科,其專業特色是以機為主,機電結合,機械技術與信息技術融合,突出計算機的應用。根據首都和輕工行業發展對機械類人才的需求特點,機械工程及自動化本科專業積極探索專業課程分模塊教學的新模式,已形成機械制造及自動化、機械設計及自動化、食品機械、機械電子工程、汽車電子工程等特色鮮明的專業課程模塊,各專業課程模塊教學内容新穎,實驗設備先進,按通才規格培養,加強基礎,重視實踐,前五個學期的基礎課和專業基礎課相同,第六個學期按模塊進行專業課程的講授。培養适應21世紀國家特别是首都經濟建設和社會發展需要的機械工程及自動化學科領域的德才兼備、知行合一、具有創新精神和實踐能力的複合性應用型高級專門人才。學生畢業後,具有很寬的擇業面,可在汽車和機電行業、輕工機械、食品加工、設計院所、高等學校、政府機關等部門從事汽車和機電産品開發與制造、輕工及食品機械、科學研究、教學和管理工作等。

           專業主幹課程有:畫法幾何與工程制圖、理論力學、材料力學、機械原理、機械設計、工程材料、電工電子學、測試技術、微機原理及應用、機械制造工程基礎、液壓與氣壓傳動,專業課程模塊。

           主要實踐性教學環節有:金工實習、電子工藝實習、工程制圖實踐、機械原理課程設計、機械設計課程設計、生産實習、電工電子學課程設計、生産實習、各類課程的實驗上機、畢業實習、畢業設計等。

    2.高分子材料與工程

           高分子材料與工程專業為北京市特色專業,由“輕工業塑料加工應用研究所”為基礎組建而成,實行“産學研”相結合的運行模式,輔以研究所濃厚的行業背景,在體制上實現了人才、資源的最佳配置,教學與科研和生産結合得更加緊密,使高分子材料與工程專業的實踐教學在全國同類專業中獨具鮮明的特色。經過多年的發展,高分子材料與工程專業形成了高分子材料加工、計算機輔助模具設計2個特色鮮明的專業課程模塊。前五個學期的基礎課和專業基礎課相同,第六個學期按模塊進行專業課程的講授。課程設置突出教學和科學研究交叉互容,學生接受良好的實驗技能和科研方法訓練,實踐性教學環節突出,學生動手能力強。遵循“厚基礎、寬口徑、重實踐、把科學研究貫穿于教學全過程”的理念,使學生有更多的機會參與創新實踐,增強學習興趣,拓寬知識面,學生綜合科研素質和動手能力位居全國同類專業前茅。本專業學生在高分子材料的合成、改性和新材料研發以及聚合物加工、模具設計、分析測試等方面具備較強的專業技能,能夠在聚合物工業生産、經營管理等相關領域内從事多方位的工作。

           專業主幹課程有:化工原理、分析化學、有機化學、物理化學、高分子化學、高分子物理、聚合物加工原理、聚合物改性、計算機輔助模具設計、高分子材料學、聚合物現代分析方法、聚合物加工機械等。

           主要實踐性教學環節有:高分子化學實驗、高分子物理實驗、金工實習、化學實驗基本操作、認識實習、生産實習、計算機輔助模具設計課程設計、專業綜合實驗、設計性專業實驗、科學研究方法訓練、畢業實習、畢業設計等。

           材料與機械工程學院實驗條件優越,機械工程、高分子材料加工方面的實驗儀器設備齊全,在全國同類院校中處于優勢地位,能夠滿足本科教學和科學研究的需要。工科實踐中心面向全校工科類學生提供機械基礎實習、電子實習等。

    3.包裝工程

           包裝工程專業是包裝、機械、材料、信息等多學科交叉的綜合性應用學科。包裝是為在流通過程中保護産品、方便儲運、促進銷售,按一定技術方法而采用的容器、材料及輔助物等的總稱;也指為了達到上述目的而采用容器、材料和輔助物的過程中施加一定技術方法等的操作活動。包裝工程則是人們運用包裝學知識,在社會、經濟、資源及時間等因素限制範圍内,為滿足包裝的主要功能而采取的各種技術活動。中國是世界包裝大國,包裝工程專業根據國家特别是首都經濟建設和社會發展需要,旨在培養德智體美全面發展,具有堅實包裝工程理論基礎,掌握現代包裝系統設計理論與方法及包裝工藝與設備技術,具有社會責任感、創新精神和實踐能力的複合性應用型工程技術人才。專業建設重視基礎和實踐,本專業學生在包裝工程方面具有備紮實的工程基礎和包裝系統設計專門知識,熟悉國家有關包裝的方針、政策和法規,了解包裝學前沿和發展趨勢,具有制定包裝工藝、合理選擇包裝材料和包裝設備、分析解決包裝工程技術問題,研究開發包裝新材料、新結構、新工藝、新設備和技術管理的知識和能力。畢業生可以從事包裝工程領域銷售包裝、運輸包裝、包裝印刷等包裝系統設計與制造、質量檢測、應用研發和包裝生産與管理等方面工作。

           專業主幹課程有:高分子物理與化學、工程力學、機械設計基礎、電工與電子技術、包裝材料學、包裝測試技術與标準、包裝過程控制基礎、包裝結構設計、包裝裝潢與造型設計、運輸包裝設計、包裝工藝與設備、包裝印刷技術、液壓與氣壓傳動、包裝設計基礎、包裝計算機輔助設計與制造、綠色包裝、高分子材料成型加工、食品包裝用塑料制品、包裝科技英語等。

           主要實踐性教學環節有:金工實習、電子工藝實習、工程制圖實踐、生産實習、機械設計課程設計、包裝結構設計課程設計、包裝裝潢與造型設計課程設計、各類課程的實驗上機、畢業實習、畢業設計等。

    Undergraduate Education

    1.Major of Mechanical Engineering & Automation

        The major of mechanical engineering & automation is a comprehensive and applicable discipline that is involved in such areas as mechanical, electronic, computer and information engineering. It is featured with incorporation of mechanical and electrical engineering, as well as manufacturing and information technologies. In addition, computer application is stressed for this major. According to the requirements of capital city and light industry development for mechanical talents, the major has been exploring actively new teaching system where distinctive specialty course modules have been formed – mechanical manufacturing & automation, mechanical design & automation, food machinery, mechanical electronic engineering, and automobile electronic engineering. For all these specialty course modules, teaching contents are new and experimental equipments are advanced. Students are educated to be talents with multiple abilities, and fundamentals are strengthened and practice is stressed. The base courses and specialty fundamental courses are same for all modules during the first five semesters, while teaching of specialty courses is performed based on different modules since the sixth semester. The goal is to cultivate senior high quality capable professionals with innovative spirits and multiple practical abilities in mechanical engineering & automation field, which can be suitable for national especially capital economic and social development in the 21st century. The graduates will have good job markets, and can do scientific research, products developing and manufacturing, teaching and managing jobs in automobile and mechanical & electrical industry, light industry machinery, food processing, and such organizations as designing institutes, colleges, governmental departments and so on.

        Core curriculum: drawing geometry & engineering drawing, theoretical mechanics, mechanics of materials, mechanical principles, mechanical design, engineering materials, electrics & electronics, testing technology, microcomputer principles and applications, mechanical manufacturing fundamentals, hydraulic & pneumatic transmission, and specialty course module.

        Main practical projects for course teaching: machining practice, electronic process practice, engineering drawing practice, course project for mechanical principles, course project for mechanical designs, production practice, course project for electrics & electronics, experiments and computer applications for all courses, graduation practice and graduation thesis and so on.

    2.Major of Polymer Materials & Engineering

        The major of polymer materials & engineering is a distinctive major in Beijing city. It was founded on the basis of “Institute of Light Industry Plastics Production and Application”, and is operated by the mode of incorporation of industry, teaching and research with the aid of the institute’s strong professional background. The system has the optimal configuration for human resource and facilities, and teaching, research and industry have been connected more closely, which make the practical projects of the polymer materials & engineering major more distinctive in the same kinds of majors all over the country. With development for many years, two different curriculum modules – polymer materials process and computer aided mold design have been formed for this major. The base courses and specialty fundamental courses are same for all modules during the first five semesters, while teaching of specialty courses is performed based on different modules since the sixth semester. Interaction of teaching and scientific research is stressed in the course arrangement. Students will receive good training for experimental skills and scientific research methods. The practical projects of courses are paid much attention, and students will get strong hands-on abilities. The teaching belief is solid basis, wide knowledge area, stressed practice, and scientific research embedded in the whole teaching process. So, students have had more chances to participate in innovative practice, and have gotten more interested in study. Their knowledge scope has been expended, and their comprehensive research qualities and practical abilities have ranked top position in the same kinds of majors all over the country. Students in this major have strong professional skills for synthesis and transformation, production of polymer materials, R&D of new materials, mold design, and analysis and testing. They will be able to do multiple jobs in the fields related to production, operation and management of polymer industry.

        Core curriculum: principles of chemical engineering, analytical chemistry, organic chemistry, physical chemistry, polymer chemistry, polymer physics, polymer processing principles, polymer transformation, computer aided mold design, polymer materials, modern analytical method of polymer, and production machinery of polymer and so on.

    Main practical projects for course teaching: chemical experiment of polymer, physical experiment of polymer, machining practice, basic operation of chemical experiment, observation practice, production practice, course project for computer aided mold design, specialty comprehensive experiment, designing specialty experiment, training for scientific research method, graduation practice and graduation thesis and so on.

    3.Major of Packaging Engineering

        The major of packaging engineering is a comprehensive applicable discipline resulting from interaction of packaging, mechanical, materials and information discipline. Packaging is the general term of containers, materials and auxiliary things used for protecting products, facilitating storage and transportation, and boosting sale in the process of circulation by certain technical methods. It also means the operational activities where certain technical methods are applied during the use of containers, materials and auxiliary things for the purpose mentioned above. Packaging engineering means all kinds of technical activities people perform to implement main packaging functions within the limitation of social, economic, resource and time factors through application of packaging knowledge. China is an important packaging country in the world, and the major of packaging engineering can meet the needs of national especially capital economic and social development. Its goals include cultivating the comprehensive applicable engineering personnel who have good records in all aspects, having solid theoretical basis of packaging engineering, grasping design theories and methods of modern packaging systems, grasping packaging processes and equipment technologies, taking social responsibilities, and having innovative spirits and practical abilities. Both basis and practice are paid much attention for construction of the major. Students in this major will have solid engineering basis in the field of packaging engineering and specialty knowledge of packaging system design. They’ll also be familiar with related national guidelines, policies and regulations, and know the frontline and developing trend of packaging discipline. The students will have knowledge and abilities to work out packaging processes, select reasonable packaging materials and equipment, analyze and solve technical problems of packaging engineering, do R&D for new packaging materials, structures, technologies and equipment, and perform technical management. The graduates can do the jobs of design and manufacturing, quality detection, R&D of packaging system, packaging production and management in packaging sale and transportation and printing in the field of packaging engineering.

        Core curriculum: polymer physics & chemistry, engineering mechanics, mechanical design fundamental, electric & electronic technologies, packaging materials, packaging testing technologies & standards, fundamental of packaging process control, packaging structure design, packaging decoration & form design, packaging design for transportation, packaging technology & equipment, package printing technology, hydraulic & pneumatic transmission, fundamental of packaging design, computer aided packaging design & manufacturing, green packaging, forming fabrication of polymer, plastics for food packaging, English for packaging technique, and so on.

    Main practical projects for course teaching: machining practice, electronic process practice, engineering drawing practice, production practice, course project for mechanical design, course project for packaging structure design, course project for packaging decoration & forming design, experiments and computer applications for all courses, graduation practice and graduation thesis and so on.
     


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